Mangrullo Formation
Geology
The Mangrullo Formation is part of the Cerro Largo Group of the Paraná Basin infill of South America. Radiometric dating and fossil assemblage correlation with the Brazilian Irati Formation and the South African and Namibian Whitehill Formation, of the Paraná Basin and Karoo Basin respectively, puts it at around the Artinskian Age (about 279 ± 6 million years ago).
It has a thickness of nearly 40 m (130 ft). It consists primarily of beds of variable thickness of sandy and dolomitic limestone and laminated oil shale, claystone, and siltstone.
Fossil biota
Fossil plants found in the formation include petrified wood and other remains from conifers, seed ferns (notably Gangamopteris), and various palynomorphs. Invertebrate fossils include bivalves, clam shrimp, insect wings (Hemiptera and Coleoptera of Paracicadopsis mendezalzolai, Barona arcuata and Perlapsocus formosoi), pygocephalomorphs, and Chondrites. Vertebrate fossils include fragmentary remains of actinistians (coelacanths) and actinopterygians (tentatively identified as belonging to Elonichthyidae), possible ichnofossils of acanthodians (Undichna insolentia), and numerous and well-preserved skulls and partial skeletons of mesosaurs (Stereosternum and Mesosaurus).
The Mangrullo Formation is notable for being the oldest known Konservat-Lagerstätte in South America. Fossils in some layers are exceptionally preserved, retaining details of soft tissue (including bone sutures, blood vessels, and nerves). Coprolites and gut contents of mesosaurs reveal that they preyed mainly on pygocephalomorph crustaceans and may have engaged in cannibalism. It is also the source of several fossil embryos, a hatchling, and very small mesosaurids; all of which are the oldest known evidence of amniotic ontogeny.
Taphonomy
The locality is believed to have been a shallow lagoon-like inland sea. Its early conditions were probably estuarine or brackish, and the fossils found in the lower mudstone and claystone layers are of bioturbating invertebrates, bivalves and fish. It had an open coastal barrier to marine water but also had extensive inflow of freshwater from melting glaciers. Overlying the earlier mudstone and claystone layers is a layer of limestone deposited with noticeable rippling, an effect of wave motion on very shallow sediment. It is believed that the connection to the sea was lost and the basin gradually began to dry out, becoming more and more hypersaline as it became shallower. It produced anoxic conditions near the bottom which resulted in the exceptional preservation of fossils during this period. Most of the earlier organisms disappeared and was replaced by mesosaurs and pygocephalomorphs, both inferred to have been capable of tolerating hypersaline environments. The connection to the sea was reestablished later on in the top layers, and fossils of mesosaurs disappeared to be replaced once again by fish and bioturbating organisms.
Gallery
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Early Permian paleogeography
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Mesosaurus tenuidens
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M. tenuidens
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Mesosaurid fossils
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Mesosaurid palate
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Mesosaurid skull
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"Mesosaurus Sea"
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Mesosaurid skull and description
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Mesosaurid skeleton and gypsum
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Pygocephalomorph (Hoplita ginsburgi) fossils
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Pygocephalomorph fossils
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Algal mats
See also
References
- ^ Mangrullo Formation at Fossilworks.org
- ^ Mangrullo Member at Fossilworks.org
- ^ "Arroyo de La Mina (Permian of Uruguay)". Paleobiology Database. Retrieved October 18, 2012.
- ^ Beri et al., 2011
- ^ Piñeiro et al., 2012a
- ^ De Santa Ana et al., 2006
- ^ Pinto et al., 2000
- ^ Mones, 1972
- ^ Piñeiro et al., 2012b
Bibliography
- Piñeiro, G.; Ramos, A.; Goso, C. S.; Scarabino, F.; Laurin, M. (2012a), "Unusual Environmental Conditions Preserve a Permian Mesosaur-Bearing Konservat-Lagerstätte from Uruguay", Acta Palaeontologica Polonica, 57 (2): 299, doi:10.4202/app.2010.0113
- Piñeiro, G.; Ferigolo, J.; Meneghel, M.; Laurin, M. (2012b), "The oldest known amniotic embryos suggest viviparity in mesosaurs", Historical Biology, 24 (6): 620–630, Bibcode:2012HBio...24..620P, doi:10.1080/08912963.2012.662230
- Beri, Á.; Gutiérrez, P.; Balarino, L. A. (2011), "Palynostratigraphy of the late Palaeozoic of Uruguay, Paraná Basin", Review of Palaeobotany and Palynology, 167 (1–2): 16–29, Bibcode:2011RPaPa.167...16B, doi:10.1016/j.revpalbo.2011.05.004, hdl:11336/68992
- De Santa Ana, H.; Goso, C.; Daners, G. (2006), Cuencas Sedimentarias de Uruguay: Geología, Paleontología y Recursos Minerales, Paleozoico - Cuenca Norte: estratigrafía del Carbonífero y Pérmico, DIRAC, University of the Republic, pp. 147–208, ISBN 9789974003163
- Pinto, I. D.; Piñeiro, G.; Verde, M. (2000), "First Permian insects from Uruguay", Pesquisas, 27: 89–96
- Mones, A (1972), "Lista de los vertebrados fosiles del Uruguay, I. Chondrichthyes, Osteichthyes, Reptilia, Aves - List of the fossil vertebrates of Uruguay, I. Chondrichthyes, Osteichthyes, Reptilia, Aves", Comunicaciones Paleontologicas del Museo de Historia Natural de Montevideo, 1: 23–35